package org.opendaylight.controller.cluster.datastore; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertNotNull; import static org.junit.Assert.assertTrue; import static org.junit.Assert.fail; import static org.mockito.Matchers.any; import static org.mockito.Matchers.anyString; import static org.mockito.Matchers.eq; import static org.mockito.Matchers.isA; import static org.mockito.Mockito.doReturn; import static org.mockito.Mockito.never; import static org.mockito.Mockito.verify; import static org.opendaylight.controller.cluster.datastore.TransactionProxy.TransactionType.READ_ONLY; import static org.opendaylight.controller.cluster.datastore.TransactionProxy.TransactionType.READ_WRITE; import static org.opendaylight.controller.cluster.datastore.TransactionProxy.TransactionType.WRITE_ONLY; import akka.actor.ActorRef; import akka.actor.ActorSelection; import akka.actor.ActorSystem; import akka.actor.Props; import akka.dispatch.Futures; import com.google.common.base.Optional; import com.google.common.util.concurrent.CheckedFuture; import com.google.common.util.concurrent.FutureCallback; import com.google.common.util.concurrent.Uninterruptibles; import java.util.List; import java.util.concurrent.CountDownLatch; import java.util.concurrent.TimeUnit; import java.util.concurrent.atomic.AtomicReference; import org.junit.Assert; import org.junit.Test; import org.mockito.InOrder; import org.mockito.Mockito; import org.opendaylight.controller.cluster.datastore.TransactionProxy.TransactionType; import org.opendaylight.controller.cluster.datastore.exceptions.NoShardLeaderException; import org.opendaylight.controller.cluster.datastore.exceptions.NotInitializedException; import org.opendaylight.controller.cluster.datastore.exceptions.PrimaryNotFoundException; import org.opendaylight.controller.cluster.datastore.exceptions.TimeoutException; import org.opendaylight.controller.cluster.datastore.messages.BatchedModifications; import org.opendaylight.controller.cluster.datastore.messages.BatchedModificationsReply; import org.opendaylight.controller.cluster.datastore.messages.CloseTransaction; import org.opendaylight.controller.cluster.datastore.messages.ReadyTransaction; import org.opendaylight.controller.cluster.datastore.modification.DeleteModification; import org.opendaylight.controller.cluster.datastore.modification.MergeModification; import org.opendaylight.controller.cluster.datastore.modification.WriteModification; import org.opendaylight.controller.cluster.datastore.shardstrategy.DefaultShardStrategy; import org.opendaylight.controller.cluster.datastore.utils.DoNothingActor; import org.opendaylight.controller.md.cluster.datastore.model.CarsModel; import org.opendaylight.controller.md.cluster.datastore.model.TestModel; import org.opendaylight.controller.md.sal.common.api.data.ReadFailedException; import org.opendaylight.controller.protobuff.messages.transaction.ShardTransactionMessages.CreateTransactionReply; import org.opendaylight.controller.sal.core.spi.data.DOMStoreThreePhaseCommitCohort; import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier; import org.opendaylight.yangtools.yang.data.api.schema.NormalizedNode; import org.opendaylight.yangtools.yang.data.impl.schema.ImmutableNodes; import scala.concurrent.Await; import scala.concurrent.Future; import scala.concurrent.Promise; import scala.concurrent.duration.Duration; @SuppressWarnings("resource") public class TransactionProxyTest extends AbstractTransactionProxyTest { @SuppressWarnings("serial") static class TestException extends RuntimeException { } static interface Invoker { CheckedFuture invoke(TransactionProxy proxy) throws Exception; } @Test public void testRead() throws Exception { ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_ONLY); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_ONLY); doReturn(readSerializedDataReply(null)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData()); Optional> readOptional = transactionProxy.read( TestModel.TEST_PATH).get(5, TimeUnit.SECONDS); assertEquals("NormalizedNode isPresent", false, readOptional.isPresent()); NormalizedNode expectedNode = ImmutableNodes.containerNode(TestModel.TEST_QNAME); doReturn(readSerializedDataReply(expectedNode)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData()); readOptional = transactionProxy.read(TestModel.TEST_PATH).get(5, TimeUnit.SECONDS); assertEquals("NormalizedNode isPresent", true, readOptional.isPresent()); assertEquals("Response NormalizedNode", expectedNode, readOptional.get()); } @Test(expected = ReadFailedException.class) public void testReadWithInvalidReplyMessageType() throws Exception { ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_ONLY); doReturn(Futures.successful(new Object())).when(mockActorContext). executeOperationAsync(eq(actorSelection(actorRef)), eqSerializedReadData()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_ONLY); transactionProxy.read(TestModel.TEST_PATH).checkedGet(5, TimeUnit.SECONDS); } @Test(expected = TestException.class) public void testReadWithAsyncRemoteOperatonFailure() throws Throwable { ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_ONLY); doReturn(Futures.failed(new TestException())).when(mockActorContext). executeOperationAsync(eq(actorSelection(actorRef)), eqSerializedReadData()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_ONLY); propagateReadFailedExceptionCause(transactionProxy.read(TestModel.TEST_PATH)); } private void testExceptionOnInitialCreateTransaction(Exception exToThrow, Invoker invoker) throws Throwable { ActorRef actorRef = getSystem().actorOf(Props.create(DoNothingActor.class)); if (exToThrow instanceof PrimaryNotFoundException) { doReturn(Futures.failed(exToThrow)).when(mockActorContext).findPrimaryShardAsync(anyString()); } else { doReturn(Futures.successful(getSystem().actorSelection(actorRef.path()))). when(mockActorContext).findPrimaryShardAsync(anyString()); } doReturn(Futures.failed(exToThrow)).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), any()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_ONLY); propagateReadFailedExceptionCause(invoker.invoke(transactionProxy)); } private void testReadWithExceptionOnInitialCreateTransaction(Exception exToThrow) throws Throwable { testExceptionOnInitialCreateTransaction(exToThrow, new Invoker() { @Override public CheckedFuture invoke(TransactionProxy proxy) throws Exception { return proxy.read(TestModel.TEST_PATH); } }); } @Test(expected = PrimaryNotFoundException.class) public void testReadWhenAPrimaryNotFoundExceptionIsThrown() throws Throwable { testReadWithExceptionOnInitialCreateTransaction(new PrimaryNotFoundException("test")); } @Test(expected = TimeoutException.class) public void testReadWhenATimeoutExceptionIsThrown() throws Throwable { testReadWithExceptionOnInitialCreateTransaction(new TimeoutException("test", new Exception("reason"))); } @Test(expected = TestException.class) public void testReadWhenAnyOtherExceptionIsThrown() throws Throwable { testReadWithExceptionOnInitialCreateTransaction(new TestException()); } @Test public void testReadWithPriorRecordingOperationSuccessful() throws Throwable { ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_WRITE); NormalizedNode expectedNode = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModifications(actorRef, 1); doReturn(readSerializedDataReply(expectedNode)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_WRITE); transactionProxy.write(TestModel.TEST_PATH, expectedNode); Optional> readOptional = transactionProxy.read( TestModel.TEST_PATH).get(5, TimeUnit.SECONDS); assertEquals("NormalizedNode isPresent", true, readOptional.isPresent()); assertEquals("Response NormalizedNode", expectedNode, readOptional.get()); InOrder inOrder = Mockito.inOrder(mockActorContext); inOrder.verify(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), isA(BatchedModifications.class)); inOrder.verify(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData()); } @Test(expected=IllegalStateException.class) public void testReadPreConditionCheck() { TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.read(TestModel.TEST_PATH); } @Test(expected=IllegalArgumentException.class) public void testInvalidCreateTransactionReply() throws Throwable { ActorRef actorRef = getSystem().actorOf(Props.create(DoNothingActor.class)); doReturn(getSystem().actorSelection(actorRef.path())).when(mockActorContext). actorSelection(actorRef.path().toString()); doReturn(Futures.successful(getSystem().actorSelection(actorRef.path()))). when(mockActorContext).findPrimaryShardAsync(eq(DefaultShardStrategy.DEFAULT_SHARD)); doReturn(Futures.successful(new Object())).when(mockActorContext).executeOperationAsync( eq(getSystem().actorSelection(actorRef.path())), eqCreateTransaction(memberName, READ_ONLY)); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_ONLY); propagateReadFailedExceptionCause(transactionProxy.read(TestModel.TEST_PATH)); } @Test public void testExists() throws Exception { ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_ONLY); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_ONLY); doReturn(dataExistsSerializedReply(false)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedDataExists()); Boolean exists = transactionProxy.exists(TestModel.TEST_PATH).checkedGet(); assertEquals("Exists response", false, exists); doReturn(dataExistsSerializedReply(true)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedDataExists()); exists = transactionProxy.exists(TestModel.TEST_PATH).checkedGet(); assertEquals("Exists response", true, exists); } @Test(expected = PrimaryNotFoundException.class) public void testExistsWhenAPrimaryNotFoundExceptionIsThrown() throws Throwable { testExceptionOnInitialCreateTransaction(new PrimaryNotFoundException("test"), new Invoker() { @Override public CheckedFuture invoke(TransactionProxy proxy) throws Exception { return proxy.exists(TestModel.TEST_PATH); } }); } @Test(expected = ReadFailedException.class) public void testExistsWithInvalidReplyMessageType() throws Exception { ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_ONLY); doReturn(Futures.successful(new Object())).when(mockActorContext). executeOperationAsync(eq(actorSelection(actorRef)), eqSerializedDataExists()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_ONLY); transactionProxy.exists(TestModel.TEST_PATH).checkedGet(5, TimeUnit.SECONDS); } @Test(expected = TestException.class) public void testExistsWithAsyncRemoteOperatonFailure() throws Throwable { ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_ONLY); doReturn(Futures.failed(new TestException())).when(mockActorContext). executeOperationAsync(eq(actorSelection(actorRef)), eqSerializedDataExists()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_ONLY); propagateReadFailedExceptionCause(transactionProxy.exists(TestModel.TEST_PATH)); } @Test public void testExistsWithPriorRecordingOperationSuccessful() throws Throwable { ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_WRITE); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModifications(actorRef, 1); doReturn(dataExistsSerializedReply(true)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedDataExists()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_WRITE); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); Boolean exists = transactionProxy.exists(TestModel.TEST_PATH).checkedGet(); assertEquals("Exists response", true, exists); InOrder inOrder = Mockito.inOrder(mockActorContext); inOrder.verify(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), isA(BatchedModifications.class)); inOrder.verify(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedDataExists()); } @Test(expected=IllegalStateException.class) public void testExistsPreConditionCheck() { TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.exists(TestModel.TEST_PATH); } private void verifyRecordingOperationFutures(List> futures, Class... expResultTypes) throws Exception { assertEquals("getRecordingOperationFutures size", expResultTypes.length, futures.size()); int i = 0; for( Future future: futures) { assertNotNull("Recording operation Future is null", future); Class expResultType = expResultTypes[i++]; if(Throwable.class.isAssignableFrom(expResultType)) { try { Await.result(future, Duration.create(5, TimeUnit.SECONDS)); fail("Expected exception from recording operation Future"); } catch(Exception e) { // Expected } } else { assertEquals(String.format("Recording operation %d Future result type", i +1 ), expResultType, Await.result(future, Duration.create(5, TimeUnit.SECONDS)).getClass()); } } } @Test public void testWrite() throws Exception { dataStoreContextBuilder.shardBatchedModificationCount(1); ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), WRITE_ONLY); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModifications(actorRef, 1); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); verifyOneBatchedModification(actorRef, new WriteModification(TestModel.TEST_PATH, nodeToWrite), false); } @Test public void testWriteAfterAsyncRead() throws Throwable { ActorRef actorRef = setupActorContextWithoutInitialCreateTransaction(getSystem()); Promise createTxPromise = akka.dispatch.Futures.promise(); doReturn(createTxPromise).when(mockActorContext).executeOperationAsync( eq(getSystem().actorSelection(actorRef.path())), eqCreateTransaction(memberName, READ_WRITE)); doReturn(readSerializedDataReply(null)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData()); expectBatchedModifications(actorRef, 1); expectReadyTransaction(actorRef); final NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); final TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_WRITE); final CountDownLatch readComplete = new CountDownLatch(1); final AtomicReference caughtEx = new AtomicReference<>(); com.google.common.util.concurrent.Futures.addCallback(transactionProxy.read(TestModel.TEST_PATH), new FutureCallback>>() { @Override public void onSuccess(Optional> result) { try { transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); } catch (Exception e) { caughtEx.set(e); } finally { readComplete.countDown(); } } @Override public void onFailure(Throwable t) { caughtEx.set(t); readComplete.countDown(); } }); createTxPromise.success(createTransactionReply(actorRef, DataStoreVersions.CURRENT_VERSION)); Uninterruptibles.awaitUninterruptibly(readComplete, 5, TimeUnit.SECONDS); if(caughtEx.get() != null) { throw caughtEx.get(); } // This sends the batched modification. transactionProxy.ready(); verifyOneBatchedModification(actorRef, new WriteModification(TestModel.TEST_PATH, nodeToWrite), false); verifyRecordingOperationFutures(transactionProxy.getRecordedOperationFutures(), BatchedModificationsReply.class); } @Test(expected=IllegalStateException.class) public void testWritePreConditionCheck() { TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_ONLY); transactionProxy.write(TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME)); } @Test(expected=IllegalStateException.class) public void testWriteAfterReadyPreConditionCheck() { TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.ready(); transactionProxy.write(TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME)); } @Test public void testMerge() throws Exception { dataStoreContextBuilder.shardBatchedModificationCount(1); ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), WRITE_ONLY); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModifications(actorRef, 1); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.merge(TestModel.TEST_PATH, nodeToWrite); verifyOneBatchedModification(actorRef, new MergeModification(TestModel.TEST_PATH, nodeToWrite), false); } @Test public void testDelete() throws Exception { dataStoreContextBuilder.shardBatchedModificationCount(1); ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), WRITE_ONLY); expectBatchedModifications(actorRef, 1); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.delete(TestModel.TEST_PATH); verifyOneBatchedModification(actorRef, new DeleteModification(TestModel.TEST_PATH), false); } @Test public void testReadyWithReadWrite() throws Exception { ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_WRITE); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); doReturn(readSerializedDataReply(null)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData()); expectBatchedModifications(actorRef, 1); expectReadyTransaction(actorRef); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_WRITE); transactionProxy.read(TestModel.TEST_PATH); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); DOMStoreThreePhaseCommitCohort ready = transactionProxy.ready(); assertTrue(ready instanceof ThreePhaseCommitCohortProxy); ThreePhaseCommitCohortProxy proxy = (ThreePhaseCommitCohortProxy) ready; verifyRecordingOperationFutures(transactionProxy.getRecordedOperationFutures(), BatchedModificationsReply.class); verifyCohortFutures(proxy, getSystem().actorSelection(actorRef.path())); verify(mockActorContext).executeOperationAsync(eq(actorSelection(actorRef)), isA(BatchedModifications.class)); verify(mockActorContext).executeOperationAsync(eq(actorSelection(actorRef)), isA(ReadyTransaction.SERIALIZABLE_CLASS)); } @Test public void testReadyWithWriteOnlyAndLastBatchPending() throws Exception { dataStoreContextBuilder.writeOnlyTransactionOptimizationsEnabled(true); ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), WRITE_ONLY); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModificationsReady(actorRef, 1); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); DOMStoreThreePhaseCommitCohort ready = transactionProxy.ready(); assertTrue(ready instanceof ThreePhaseCommitCohortProxy); ThreePhaseCommitCohortProxy proxy = (ThreePhaseCommitCohortProxy) ready; verifyRecordingOperationFutures(transactionProxy.getRecordedOperationFutures()); verifyCohortFutures(proxy, getSystem().actorSelection(actorRef.path())); List batchedModifications = captureBatchedModifications(actorRef); assertEquals("Captured BatchedModifications count", 1, batchedModifications.size()); verifyBatchedModifications(batchedModifications.get(0), true, new WriteModification(TestModel.TEST_PATH, nodeToWrite)); verify(mockActorContext, never()).executeOperationAsync(eq(actorSelection(actorRef)), isA(ReadyTransaction.SERIALIZABLE_CLASS)); } @Test public void testReadyWithWriteOnlyAndLastBatchEmpty() throws Exception { dataStoreContextBuilder.shardBatchedModificationCount(1).writeOnlyTransactionOptimizationsEnabled(true); ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), WRITE_ONLY); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModificationsReady(actorRef, 1); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); DOMStoreThreePhaseCommitCohort ready = transactionProxy.ready(); assertTrue(ready instanceof ThreePhaseCommitCohortProxy); ThreePhaseCommitCohortProxy proxy = (ThreePhaseCommitCohortProxy) ready; verifyRecordingOperationFutures(transactionProxy.getRecordedOperationFutures(), BatchedModificationsReply.class); verifyCohortFutures(proxy, getSystem().actorSelection(actorRef.path())); List batchedModifications = captureBatchedModifications(actorRef); assertEquals("Captured BatchedModifications count", 2, batchedModifications.size()); verifyBatchedModifications(batchedModifications.get(0), false, new WriteModification(TestModel.TEST_PATH, nodeToWrite)); verifyBatchedModifications(batchedModifications.get(1), true); verify(mockActorContext, never()).executeOperationAsync(eq(actorSelection(actorRef)), isA(ReadyTransaction.SERIALIZABLE_CLASS)); } @Test public void testReadyWithRecordingOperationFailure() throws Exception { dataStoreContextBuilder.shardBatchedModificationCount(1).writeOnlyTransactionOptimizationsEnabled(true); ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), WRITE_ONLY); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectFailedBatchedModifications(actorRef); doReturn(false).when(mockActorContext).isPathLocal(actorRef.path().toString()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); DOMStoreThreePhaseCommitCohort ready = transactionProxy.ready(); assertTrue(ready instanceof ThreePhaseCommitCohortProxy); ThreePhaseCommitCohortProxy proxy = (ThreePhaseCommitCohortProxy) ready; verifyCohortFutures(proxy, TestException.class); verifyRecordingOperationFutures(transactionProxy.getRecordedOperationFutures(), TestException.class); } @Test public void testReadyWithReplyFailure() throws Exception { dataStoreContextBuilder.writeOnlyTransactionOptimizationsEnabled(true); ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), WRITE_ONLY); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectFailedBatchedModifications(actorRef); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.merge(TestModel.TEST_PATH, nodeToWrite); DOMStoreThreePhaseCommitCohort ready = transactionProxy.ready(); assertTrue(ready instanceof ThreePhaseCommitCohortProxy); ThreePhaseCommitCohortProxy proxy = (ThreePhaseCommitCohortProxy) ready; verifyCohortFutures(proxy, TestException.class); } private void testWriteOnlyTxWithFindPrimaryShardFailure(Exception toThrow) throws Exception { doReturn(Futures.failed(toThrow)).when(mockActorContext).findPrimaryShardAsync(anyString()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); transactionProxy.merge(TestModel.TEST_PATH, nodeToWrite); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); transactionProxy.delete(TestModel.TEST_PATH); DOMStoreThreePhaseCommitCohort ready = transactionProxy.ready(); assertTrue(ready instanceof ThreePhaseCommitCohortProxy); ThreePhaseCommitCohortProxy proxy = (ThreePhaseCommitCohortProxy) ready; verifyCohortFutures(proxy, toThrow.getClass()); } @Test public void testWriteOnlyTxWithPrimaryNotFoundException() throws Exception { testWriteOnlyTxWithFindPrimaryShardFailure(new PrimaryNotFoundException("mock")); } @Test public void testWriteOnlyTxWithNotInitializedException() throws Exception { testWriteOnlyTxWithFindPrimaryShardFailure(new NotInitializedException("mock")); } @Test public void testWriteOnlyTxWithNoShardLeaderException() throws Exception { testWriteOnlyTxWithFindPrimaryShardFailure(new NoShardLeaderException("mock")); } @Test public void testReadyWithInvalidReplyMessageType() throws Exception { dataStoreContextBuilder.writeOnlyTransactionOptimizationsEnabled(true); ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), WRITE_ONLY); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); //expectBatchedModifications(actorRef, 1); doReturn(Futures.successful(new Object())).when(mockActorContext). executeOperationAsync(eq(actorSelection(actorRef)), isA(BatchedModifications.class)); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, WRITE_ONLY); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); DOMStoreThreePhaseCommitCohort ready = transactionProxy.ready(); assertTrue(ready instanceof ThreePhaseCommitCohortProxy); ThreePhaseCommitCohortProxy proxy = (ThreePhaseCommitCohortProxy) ready; verifyCohortFutures(proxy, IllegalArgumentException.class); } @Test public void testGetIdentifier() { setupActorContextWithInitialCreateTransaction(getSystem(), READ_ONLY); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, TransactionProxy.TransactionType.READ_ONLY); Object id = transactionProxy.getIdentifier(); assertNotNull("getIdentifier returned null", id); assertTrue("Invalid identifier: " + id, id.toString().startsWith(memberName)); } @Test public void testClose() throws Exception{ ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_WRITE); doReturn(readSerializedDataReply(null)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_WRITE); transactionProxy.read(TestModel.TEST_PATH); transactionProxy.close(); verify(mockActorContext).sendOperationAsync( eq(actorSelection(actorRef)), isA(CloseTransaction.SERIALIZABLE_CLASS)); } /** * Method to test a local Tx actor. The Tx paths are matched to decide if the * Tx actor is local or not. This is done by mocking the Tx actor path * and the caller paths and ensuring that the paths have the remote-address format * * Note: Since the default akka provider for test is not a RemoteActorRefProvider, * the paths returned for the actors for all the tests are not qualified remote paths. * Hence are treated as non-local/remote actors. In short, all tests except * few below run for remote actors * * @throws Exception */ @Test public void testLocalTxActorRead() throws Exception { setupActorContextWithInitialCreateTransaction(getSystem(), READ_ONLY); doReturn(true).when(mockActorContext).isPathLocal(anyString()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext,READ_ONLY); // negative test case with null as the reply doReturn(readDataReply(null)).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), eqReadData()); Optional> readOptional = transactionProxy.read( TestModel.TEST_PATH).get(5, TimeUnit.SECONDS); assertEquals("NormalizedNode isPresent", false, readOptional.isPresent()); // test case with node as read data reply NormalizedNode expectedNode = ImmutableNodes.containerNode(TestModel.TEST_QNAME); doReturn(readDataReply(expectedNode)).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), eqReadData()); readOptional = transactionProxy.read(TestModel.TEST_PATH).get(5, TimeUnit.SECONDS); assertEquals("NormalizedNode isPresent", true, readOptional.isPresent()); assertEquals("Response NormalizedNode", expectedNode, readOptional.get()); // test for local data exists doReturn(dataExistsReply(true)).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), eqDataExists()); boolean exists = transactionProxy.exists(TestModel.TEST_PATH).checkedGet(); assertEquals("Exists response", true, exists); } @Test public void testLocalTxActorReady() throws Exception { ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_WRITE); doReturn(true).when(mockActorContext).isPathLocal(anyString()); doReturn(batchedModificationsReply(1)).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), isA(BatchedModifications.class)); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_WRITE); NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); // testing ready doReturn(readyTxReply(actorRef.path().toString())).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), isA(ReadyTransaction.class)); DOMStoreThreePhaseCommitCohort ready = transactionProxy.ready(); assertTrue(ready instanceof ThreePhaseCommitCohortProxy); ThreePhaseCommitCohortProxy proxy = (ThreePhaseCommitCohortProxy) ready; verifyCohortFutures(proxy, getSystem().actorSelection(actorRef.path())); } private static interface TransactionProxyOperation { void run(TransactionProxy transactionProxy); } private void throttleOperation(TransactionProxyOperation operation) { throttleOperation(operation, 1, true); } private void throttleOperation(TransactionProxyOperation operation, int outstandingOpsLimit, boolean shardFound){ ActorSystem actorSystem = getSystem(); ActorRef shardActorRef = actorSystem.actorOf(Props.create(DoNothingActor.class)); doReturn(outstandingOpsLimit).when(mockActorContext).getTransactionOutstandingOperationLimit(); doReturn(actorSystem.actorSelection(shardActorRef.path())). when(mockActorContext).actorSelection(shardActorRef.path().toString()); if(shardFound) { doReturn(Futures.successful(actorSystem.actorSelection(shardActorRef.path()))). when(mockActorContext).findPrimaryShardAsync(eq(DefaultShardStrategy.DEFAULT_SHARD)); } else { doReturn(Futures.failed(new Exception("not found"))) .when(mockActorContext).findPrimaryShardAsync(eq(DefaultShardStrategy.DEFAULT_SHARD)); } String actorPath = "akka.tcp://system@127.0.0.1:2550/user/tx-actor"; CreateTransactionReply createTransactionReply = CreateTransactionReply.newBuilder(). setTransactionId("txn-1").setTransactionActorPath(actorPath). setMessageVersion(DataStoreVersions.CURRENT_VERSION).build(); doReturn(Futures.successful(createTransactionReply)).when(mockActorContext). executeOperationAsync(eq(actorSystem.actorSelection(shardActorRef.path())), eqCreateTransaction(memberName, READ_WRITE)); doReturn(true).when(mockActorContext).isPathLocal(actorPath); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_WRITE); long start = System.nanoTime(); operation.run(transactionProxy); long end = System.nanoTime(); long expected = TimeUnit.SECONDS.toNanos(mockActorContext.getDatastoreContext().getOperationTimeoutInSeconds()); Assert.assertTrue(String.format("Expected elapsed time: %s. Actual: %s", expected, (end-start)), (end - start) > expected); } private void completeOperation(TransactionProxyOperation operation){ completeOperation(operation, true); } private void completeOperation(TransactionProxyOperation operation, boolean shardFound){ ActorSystem actorSystem = getSystem(); ActorRef shardActorRef = actorSystem.actorOf(Props.create(DoNothingActor.class)); doReturn(1).when(mockActorContext).getTransactionOutstandingOperationLimit(); doReturn(actorSystem.actorSelection(shardActorRef.path())). when(mockActorContext).actorSelection(shardActorRef.path().toString()); if(shardFound) { doReturn(Futures.successful(actorSystem.actorSelection(shardActorRef.path()))). when(mockActorContext).findPrimaryShardAsync(eq(DefaultShardStrategy.DEFAULT_SHARD)); } else { doReturn(Futures.failed(new PrimaryNotFoundException("test"))) .when(mockActorContext).findPrimaryShardAsync(eq(DefaultShardStrategy.DEFAULT_SHARD)); } ActorRef txActorRef = actorSystem.actorOf(Props.create(DoNothingActor.class)); String actorPath = txActorRef.path().toString(); CreateTransactionReply createTransactionReply = CreateTransactionReply.newBuilder(). setTransactionId("txn-1").setTransactionActorPath(actorPath). setMessageVersion(DataStoreVersions.CURRENT_VERSION).build(); doReturn(actorSystem.actorSelection(actorPath)).when(mockActorContext).actorSelection(actorPath); doReturn(Futures.successful(createTransactionReply)).when(mockActorContext). executeOperationAsync(eq(actorSystem.actorSelection(shardActorRef.path())), eqCreateTransaction(memberName, READ_WRITE)); doReturn(true).when(mockActorContext).isPathLocal(anyString()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_WRITE); long start = System.nanoTime(); operation.run(transactionProxy); long end = System.nanoTime(); long expected = TimeUnit.SECONDS.toNanos(mockActorContext.getDatastoreContext().getOperationTimeoutInSeconds()); Assert.assertTrue(String.format("Expected elapsed time: %s. Actual: %s", expected, (end-start)), (end - start) <= expected); } public void testWriteThrottling(boolean shardFound){ throttleOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModifications(2); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); } }, 1, shardFound); } @Test public void testWriteThrottlingWhenShardFound(){ dataStoreContextBuilder.shardBatchedModificationCount(1); throttleOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectIncompleteBatchedModifications(); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); } }); } @Test public void testWriteThrottlingWhenShardNotFound(){ // Confirm that there is no throttling when the Shard is not found dataStoreContextBuilder.shardBatchedModificationCount(1); completeOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModifications(2); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); } }, false); } @Test public void testWriteCompletion(){ dataStoreContextBuilder.shardBatchedModificationCount(1); completeOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModifications(2); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); } }); } @Test public void testMergeThrottlingWhenShardFound(){ dataStoreContextBuilder.shardBatchedModificationCount(1); throttleOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { NormalizedNode nodeToMerge = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectIncompleteBatchedModifications(); transactionProxy.merge(TestModel.TEST_PATH, nodeToMerge); transactionProxy.merge(TestModel.TEST_PATH, nodeToMerge); } }); } @Test public void testMergeThrottlingWhenShardNotFound(){ dataStoreContextBuilder.shardBatchedModificationCount(1); completeOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { NormalizedNode nodeToMerge = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModifications(2); transactionProxy.merge(TestModel.TEST_PATH, nodeToMerge); transactionProxy.merge(TestModel.TEST_PATH, nodeToMerge); } }, false); } @Test public void testMergeCompletion(){ dataStoreContextBuilder.shardBatchedModificationCount(1); completeOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { NormalizedNode nodeToMerge = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModifications(2); transactionProxy.merge(TestModel.TEST_PATH, nodeToMerge); transactionProxy.merge(TestModel.TEST_PATH, nodeToMerge); } }); } @Test public void testDeleteThrottlingWhenShardFound(){ throttleOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { expectIncompleteBatchedModifications(); transactionProxy.delete(TestModel.TEST_PATH); transactionProxy.delete(TestModel.TEST_PATH); } }); } @Test public void testDeleteThrottlingWhenShardNotFound(){ completeOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { expectBatchedModifications(2); transactionProxy.delete(TestModel.TEST_PATH); transactionProxy.delete(TestModel.TEST_PATH); } }, false); } @Test public void testDeleteCompletion(){ dataStoreContextBuilder.shardBatchedModificationCount(1); completeOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { expectBatchedModifications(2); transactionProxy.delete(TestModel.TEST_PATH); transactionProxy.delete(TestModel.TEST_PATH); } }); } @Test public void testReadThrottlingWhenShardFound(){ throttleOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { doReturn(incompleteFuture()).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), eqReadData()); transactionProxy.read(TestModel.TEST_PATH); transactionProxy.read(TestModel.TEST_PATH); } }); } @Test public void testReadThrottlingWhenShardNotFound(){ completeOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { doReturn(incompleteFuture()).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), eqReadData()); transactionProxy.read(TestModel.TEST_PATH); transactionProxy.read(TestModel.TEST_PATH); } }, false); } @Test public void testReadCompletion(){ completeOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { NormalizedNode nodeToRead = ImmutableNodes.containerNode(TestModel.TEST_QNAME); doReturn(readDataReply(nodeToRead)).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), eqReadData()); transactionProxy.read(TestModel.TEST_PATH); transactionProxy.read(TestModel.TEST_PATH); } }); } @Test public void testExistsThrottlingWhenShardFound(){ throttleOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { doReturn(incompleteFuture()).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), eqDataExists()); transactionProxy.exists(TestModel.TEST_PATH); transactionProxy.exists(TestModel.TEST_PATH); } }); } @Test public void testExistsThrottlingWhenShardNotFound(){ completeOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { doReturn(incompleteFuture()).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), eqDataExists()); transactionProxy.exists(TestModel.TEST_PATH); transactionProxy.exists(TestModel.TEST_PATH); } }, false); } @Test public void testExistsCompletion(){ completeOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { doReturn(dataExistsReply(true)).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), eqDataExists()); transactionProxy.exists(TestModel.TEST_PATH); transactionProxy.exists(TestModel.TEST_PATH); } }); } @Test public void testReadyThrottling(){ throttleOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); expectBatchedModifications(1); doReturn(incompleteFuture()).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), any(ReadyTransaction.class)); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); transactionProxy.ready(); } }); } @Test public void testReadyThrottlingWithTwoTransactionContexts(){ throttleOperation(new TransactionProxyOperation() { @Override public void run(TransactionProxy transactionProxy) { NormalizedNode nodeToWrite = ImmutableNodes.containerNode(TestModel.TEST_QNAME); NormalizedNode carsNode = ImmutableNodes.containerNode(CarsModel.BASE_QNAME); expectBatchedModifications(2); doReturn(incompleteFuture()).when(mockActorContext).executeOperationAsync( any(ActorSelection.class), any(ReadyTransaction.class)); transactionProxy.write(TestModel.TEST_PATH, nodeToWrite); transactionProxy.write(TestModel.TEST_PATH, carsNode); transactionProxy.ready(); } }, 2, true); } private void testModificationOperationBatching(TransactionType type) throws Exception { int shardBatchedModificationCount = 3; dataStoreContextBuilder.shardBatchedModificationCount(shardBatchedModificationCount); ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), type); expectBatchedModifications(actorRef, shardBatchedModificationCount); expectReadyTransaction(actorRef); YangInstanceIdentifier writePath1 = TestModel.TEST_PATH; NormalizedNode writeNode1 = ImmutableNodes.containerNode(TestModel.TEST_QNAME); YangInstanceIdentifier writePath2 = TestModel.OUTER_LIST_PATH; NormalizedNode writeNode2 = ImmutableNodes.containerNode(TestModel.OUTER_LIST_QNAME); YangInstanceIdentifier writePath3 = TestModel.INNER_LIST_PATH; NormalizedNode writeNode3 = ImmutableNodes.containerNode(TestModel.INNER_LIST_QNAME); YangInstanceIdentifier mergePath1 = TestModel.TEST_PATH; NormalizedNode mergeNode1 = ImmutableNodes.containerNode(TestModel.TEST_QNAME); YangInstanceIdentifier mergePath2 = TestModel.OUTER_LIST_PATH; NormalizedNode mergeNode2 = ImmutableNodes.containerNode(TestModel.OUTER_LIST_QNAME); YangInstanceIdentifier mergePath3 = TestModel.INNER_LIST_PATH; NormalizedNode mergeNode3 = ImmutableNodes.containerNode(TestModel.INNER_LIST_QNAME); YangInstanceIdentifier deletePath1 = TestModel.TEST_PATH; YangInstanceIdentifier deletePath2 = TestModel.OUTER_LIST_PATH; TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, type); transactionProxy.write(writePath1, writeNode1); transactionProxy.write(writePath2, writeNode2); transactionProxy.delete(deletePath1); transactionProxy.merge(mergePath1, mergeNode1); transactionProxy.merge(mergePath2, mergeNode2); transactionProxy.write(writePath3, writeNode3); transactionProxy.merge(mergePath3, mergeNode3); transactionProxy.delete(deletePath2); // This sends the last batch. transactionProxy.ready(); List batchedModifications = captureBatchedModifications(actorRef); assertEquals("Captured BatchedModifications count", 3, batchedModifications.size()); verifyBatchedModifications(batchedModifications.get(0), false, new WriteModification(writePath1, writeNode1), new WriteModification(writePath2, writeNode2), new DeleteModification(deletePath1)); verifyBatchedModifications(batchedModifications.get(1), false, new MergeModification(mergePath1, mergeNode1), new MergeModification(mergePath2, mergeNode2), new WriteModification(writePath3, writeNode3)); boolean optimizedWriteOnly = type == WRITE_ONLY && dataStoreContextBuilder.build().isWriteOnlyTransactionOptimizationsEnabled(); verifyBatchedModifications(batchedModifications.get(2), optimizedWriteOnly, new MergeModification(mergePath3, mergeNode3), new DeleteModification(deletePath2)); if(optimizedWriteOnly) { verifyRecordingOperationFutures(transactionProxy.getRecordedOperationFutures(), BatchedModificationsReply.class, BatchedModificationsReply.class); } else { verifyRecordingOperationFutures(transactionProxy.getRecordedOperationFutures(), BatchedModificationsReply.class, BatchedModificationsReply.class, BatchedModificationsReply.class); } } @Test public void testReadWriteModificationOperationBatching() throws Throwable { testModificationOperationBatching(READ_WRITE); } @Test public void testWriteOnlyModificationOperationBatching() throws Throwable { testModificationOperationBatching(WRITE_ONLY); } @Test public void testOptimizedWriteOnlyModificationOperationBatching() throws Throwable { dataStoreContextBuilder.writeOnlyTransactionOptimizationsEnabled(true); testModificationOperationBatching(WRITE_ONLY); } @Test public void testModificationOperationBatchingWithInterleavedReads() throws Throwable { int shardBatchedModificationCount = 10; dataStoreContextBuilder.shardBatchedModificationCount(shardBatchedModificationCount); ActorRef actorRef = setupActorContextWithInitialCreateTransaction(getSystem(), READ_WRITE); expectBatchedModifications(actorRef, shardBatchedModificationCount); YangInstanceIdentifier writePath1 = TestModel.TEST_PATH; NormalizedNode writeNode1 = ImmutableNodes.containerNode(TestModel.TEST_QNAME); YangInstanceIdentifier writePath2 = TestModel.OUTER_LIST_PATH; NormalizedNode writeNode2 = ImmutableNodes.containerNode(TestModel.OUTER_LIST_QNAME); YangInstanceIdentifier mergePath1 = TestModel.TEST_PATH; NormalizedNode mergeNode1 = ImmutableNodes.containerNode(TestModel.TEST_QNAME); YangInstanceIdentifier mergePath2 = TestModel.INNER_LIST_PATH; NormalizedNode mergeNode2 = ImmutableNodes.containerNode(TestModel.INNER_LIST_QNAME); YangInstanceIdentifier deletePath = TestModel.OUTER_LIST_PATH; doReturn(readSerializedDataReply(writeNode2)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData(writePath2)); doReturn(readSerializedDataReply(mergeNode2)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData(mergePath2)); doReturn(dataExistsSerializedReply(true)).when(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedDataExists()); TransactionProxy transactionProxy = new TransactionProxy(mockActorContext, READ_WRITE); transactionProxy.write(writePath1, writeNode1); transactionProxy.write(writePath2, writeNode2); Optional> readOptional = transactionProxy.read(writePath2). get(5, TimeUnit.SECONDS); assertEquals("NormalizedNode isPresent", true, readOptional.isPresent()); assertEquals("Response NormalizedNode", writeNode2, readOptional.get()); transactionProxy.merge(mergePath1, mergeNode1); transactionProxy.merge(mergePath2, mergeNode2); readOptional = transactionProxy.read(mergePath2).get(5, TimeUnit.SECONDS); transactionProxy.delete(deletePath); Boolean exists = transactionProxy.exists(TestModel.TEST_PATH).checkedGet(); assertEquals("Exists response", true, exists); assertEquals("NormalizedNode isPresent", true, readOptional.isPresent()); assertEquals("Response NormalizedNode", mergeNode2, readOptional.get()); List batchedModifications = captureBatchedModifications(actorRef); assertEquals("Captured BatchedModifications count", 3, batchedModifications.size()); verifyBatchedModifications(batchedModifications.get(0), false, new WriteModification(writePath1, writeNode1), new WriteModification(writePath2, writeNode2)); verifyBatchedModifications(batchedModifications.get(1), false, new MergeModification(mergePath1, mergeNode1), new MergeModification(mergePath2, mergeNode2)); verifyBatchedModifications(batchedModifications.get(2), false, new DeleteModification(deletePath)); InOrder inOrder = Mockito.inOrder(mockActorContext); inOrder.verify(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), isA(BatchedModifications.class)); inOrder.verify(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData(writePath2)); inOrder.verify(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), isA(BatchedModifications.class)); inOrder.verify(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedReadData(mergePath2)); inOrder.verify(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), isA(BatchedModifications.class)); inOrder.verify(mockActorContext).executeOperationAsync( eq(actorSelection(actorRef)), eqSerializedDataExists()); verifyRecordingOperationFutures(transactionProxy.getRecordedOperationFutures(), BatchedModificationsReply.class, BatchedModificationsReply.class, BatchedModificationsReply.class); } }